Description:
XERODERMA PIGMENTOSUM, COMPLEMENTATION GROUP G; XPG
EXCISION-REPAIR, COMPLEMENTING DEFECTIVE, IN CHINESE HAMSTER, 5; ERCC5
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Repository
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NIGMS Human Genetic Cell Repository
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| Subcollection |
Heritable Diseases |
| Class |
Disorders of Nucleotide and Nucleic Acid Metabolism |
| Class |
Repair Defective and Chromosomal Instability Syndromes |
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Cell Type
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Fibroblast
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Transformant
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Untransformed
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Race
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White
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Ethnicity
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FLEMISH
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Family Member
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1
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Relation to Proband
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proband
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Confirmation
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Clinical summary/Case history
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Species
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Homo sapiens
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Common Name
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Human
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Remarks
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| Passage Frozen |
7 |
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| IDENTIFICATION OF SPECIES OF ORIGIN |
Species of Origin Confirmed by Nucleoside Phosphorylase, Glucose-6-Phosphate Dehydrogenase, and Lactate Dehydrogenase Isoenzyme Electrophoresis |
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| Gene |
ERCC5 |
| Chromosomal Location |
13q33 |
| Allelic Variant 1 |
133530.0004; XERODERMA PIGMENTOSUM, GROUP G COMBINED WITH COCKAYNE SYNDROME |
| Identified Mutation |
1-BP DEL, FS660TER; Nouspikel et al. (1997) studied a girl with psychomotor retardation and microcephaly who died at 6.5 years of age. She was severely sunlight-sensitive with several pigmented cutaneous spots (Jaeken et al., 1989; Vermeulen et al., 1993). She was lacking a single nucleotide within an AAA triplet at nucleotides 2170-2172, which resulted in a TGA stop codon after amino acid 659. Such a deletion was considered characteristic of a slippage error during DNA replication. The patient appeared to be homozygous for this truncation mutation.
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| Gene |
ERCC5 |
| Chromosomal Location |
13q33 |
| Allelic Variant 2 |
133530.0005; XERODERMA PIGMENTOSUM, GROUP G COMBINED WITH COCKAYNE SYNDROME |
| Identified Mutation |
ARG263TER; Nouspikel et al. (1997) studied fibroblasts from a male with extreme microcephaly, dysmorphism, and sun-sensitive skin with several pigmented spots who died at the age of 20 months. To their surprise they found that one XPG allele carried the same single nucleotide deletion as that found in homozygous state in the girl described in 113530.0004. Although both Flemish, these 2 patients were not known to be related; however, they possessed a very rare HLA haplotype in common. The second XPG allele in the male contained a C-to-T transition at nucleotide 984, converting arg263 into a TGA stop codon and resulting in an even more severely truncated protein. This transition was located within a CpG dinucleotide and thus may have resulted from deamination of a 5-methylcytosine. Thus the male patient was a compound heterozygote.
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| Remarks |
XPCS2LV; clinical characteristics of Cockayne syndrome with biochemical defect typical of XP; severe psychomotor retardation and microcephaly; dysplastic ears; large extremities; absent visual and auditory-evoked potentials; salt-and-pepper retinal pigmentation; donor subject is a compound heterozygote: one allele has a 1 bp deletion in an AAA triplet at nucleotides 2170_2172 of the ERCC5 gene resulting in a TGA stop codon after amino acid 659 (fs660Ter)and a second allele has a C>T transition at nucleotide 984 (984C>T) resulting in the substitution of a termination signal for arginine at codon 263 [Arg263Ter (R263X)] |
| Arab HH, Wani G, Ray A, Shah ZI, Zhu Q, Wani AA, Dissociation of CAK from core TFIIH reveals a functional link between XP-G/CS and the TFIIH disassembly state PloS one5:e11007 2010 |
| PubMed ID: 20543986 |
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| Fishel ML, Gamcsik MP, Delaney SM, Zuhowski EG, Maher VM, Karrison T, Moschel RC, Egorin MJ, Dolan ME, Role of glutathione and nucleotide excision repair in modulation of cisplatin activity with O6-benzylguanine Cancer chemotherapy and pharmacology55:333-42 2004 |
| PubMed ID: 15723259 |
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| Dianov GL, Thybo T, Dianova II, Lipinski LJ, Bohr VA, Single nucleotide patch base excision repair is the major pathway for removal of thymine glycol from DNA in human cell extracts. J Biol Chem275:11809-13 2000 |
| PubMed ID: 10766805 |
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| Cleaver JE, Thompson LH, Richardson AS, States JC, A summary of mutations in the UV-sensitive disorders: xeroderma pigmentosum,
Cockayne syndrome, and trichothiodystrophy. Hum Mutat14(1):9-22 1999 |
| PubMed ID: 10447254 |
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| Nouspikel T, Lalle P, Leadon SA, Cooper PK, Clarkson SG, A common mutational pattern in Cockayne syndrome patients from xeroderma pigmentosum group G: implications for a second XPG function. Proc Natl Acad Sci U S A94:3116-21 1997 |
| PubMed ID: 9096355 |
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| Vermeulen W, Jaeken J, Jaspers NG, Bootsma D, Hoeijmakers JH, Xeroderma pigmentosum complementation group G associated with Cockayne syndrome. Am J Hum Genet53:185-92 1993 |
| PubMed ID: 8317483 |
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| Jaeken J, Klocker H, Schwaiger H, Bellmann R, Hirsch-Kauffmann M, Schweiger M, Clinical and biochemical studies in three patients with severe early infantile Cockayne syndrome. Hum Genet83:339-46 1989 |
| PubMed ID: 2478446 |
| dbSNP |
dbSNP ID: 21295 |
| Gene Cards |
ERCC5 |
| Gene Ontology |
GO:0003697 single-stranded DNA binding |
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GO:0004520 endodeoxyribonuclease activity |
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GO:0005634 nucleus |
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GO:0006283 transcription-coupled nucleotide-excision repair |
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GO:0007605 perception of sound |
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GO:0016787 hydrolase activity |
| NCBI Gene |
Gene ID:2073 |
| NCBI GTR |
133530 EXCISION REPAIR, COMPLEMENTING DEFECTIVE, IN CHINESE HAMSTER, 5; ERCC5 |
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278780 XERODERMA PIGMENTOSUM, COMPLEMENTATION GROUP G; XPG |
| OMIM |
133530 EXCISION REPAIR, COMPLEMENTING DEFECTIVE, IN CHINESE HAMSTER, 5; ERCC5 |
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278780 XERODERMA PIGMENTOSUM, COMPLEMENTATION GROUP G; XPG |
| Omim Description |
XERODERMA PIGMENTOSUM VII |
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XERODERMA PIGMENTOSUM, COMPLEMENTATION GROUP G |
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XP, GROUP G; XPG |
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XP7 |
| Passage Frozen |
7 |
| Split Ratio |
1:5 |
| Temperature |
37 C |
| Percent CO2 |
5% |
| Percent O2 |
AMBIENT |
| Medium |
Ham's F12 Medium/Dulbecco Modified Eagles Medium, 1:1 mixture with 2mM L-glutamine or equivalent |
| Serum |
10% fetal bovine serum Not inactivated |
| Substrate |
None specified |
| Subcultivation Method |
trypsin-EDTA |
| Supplement |
- |
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